Oxidation of methyl α-acylaminocrotonates with thallium (III) acetate

## Abstract The kinetics of the reaction by which thallium(III) acetate oxidizes cyclohexene in glacial acetic acid medium, has been studied by UV spectrophotometric observation at 30°C. The consumption of thallium(III) acetate follows a second‐order rate law exhibiting first‐order dependence on ea

Coal-derived asphaltenes are complex aggregate organic materials. The high viscosity of asphaltenes has been attributed to organic (pyridine) base-organic (phenols) acid interaction. Reduction of asphaltene viscosity by selectively oxidizing with thallium(lll) salts was attempted. TI(III) treatment

The hexacyanoferrate(II1)-thallium(1) reaction in aqueous acetic acid containing large concentrations of hydrochloric acid is considerably accelerated both by hydrogen and chloride ions as well as increasing acetic acid in the medium. The experimental results obey the rate law (1) where PI to p6 (1

1999 indole derivatives, isoindole derivatives indole derivatives, isoindole derivatives R 0140 ## 49 -111 Metal Reagents in Organic Reactions. Part 6. Oxidation of Indoles with Thallium(III) Acetate. -The formation of the products can be explained by the initial formation of an unstable, non-iso

## Abstract The oxidative cleavage of some aliphatic ketoximes by thallium(III) acetate was studied in the temperature range of 20–40°C. The reactions were followed by determination of the rates of disappearance of thallium(III) acetate for variations in [substrate], [Tl(III)], [H^+^], ionic streng